Iota tangle full nodes6/30/2023 ![]() ![]() Web site: BC-as-a-service companies making the dlt more accessible. In: 9th IFIP International Conference on New Technologies, Mobility, and Security (2018) Han, R., Gramoli, V., Xu, X.: Evaluating BCs for IoT. In: 2018 IEEE International Conference on Internet of Things. Strugar, D., et al.: On M2M micropayments: a case study of electric autonomous vehicles. Wood, G.: Ethereum: a secure decentralized generalized transaction ledger (2015) In: Proceedings of the 15th International Joint Conference on e-Business and Telecommunications, Porto, Portugal (2018) Makhdoom, I., Abolhasan, M., Ni, W.: BC for IoT: the challenges and a Way forward. Jiang, Y., Wang, C., Wang, Y., Gao, L.: A cross-chain solution to integrating multiple BCs for IoT data management. content addressed, versioned, P2P file system (2015). In: IEEE International Conference on Software Quality, Reliability and Security Companion, Libson, Portugal (2018)īenet, J.: IPFS. Luo, K., et al.: A Multiple BCs architecture on inter-BC communication. International World Wide Web Conferences Steering Committee, pp. In: International Conference Companion on World Wide Web. Hope-Bailie, A., Thomas, S.: Interledger. A universal BC protocol enabling cross-ledger access through business modularization. Ĭao, D., Binns, B., Zhang, E., Homer, P., Lan, A.: Oneledger. In: IMCET (2018)īack, A., Corallo, M., Dashjr, L., Friedenbach, M., Maxwell, G., Miller, A., Poelstra, A., Timón, J., Wuille, P.: Enabling BC innovations with pegged sidechains (2015). Hellani, H., et al.: On blockchain technology: overview of bitcoin and future insights. McKinsey Global Institute, New York, NY, USA (2015) Manyika, J.: The internet of things: mapping the value beyond the hype. Pureswaran, V., Brody, P.: Device democracy: saving the future of the internet of things. Keywordsĭey, N., et al.: Internet of Things and Big Data Analytics Toward Next-Generation Intelligence. The received data have been propagated and stored in the deployed BC and IOTA. The main part of the proposed approach has been implemented and tested using a GPS data emulator connected to an IOTA node. ![]() ![]() The architecture, when implemented, will reap the advantages of both technologies while limiting the drawbacks of them. In the frontend, the applications are running on a Tangle-based platform so that it fits IoT devices. In our architecture, a BC-based platform installed in the backend, used primarily for data storage and smart contract. We propose a new decentralization architecture in which BC and tangle are combined in such a way that the IoT functionality is increased, and storage is enhanced while keeping a high level of reliability, data accessibility, integrity, and security. In this paper, we investigate the interoperability requirements between BC and tangle distributed technologies. The use of blockchain (BC) technology for IoT-based collaboration platforms is still hindered by its inherent properties, namely, the need for ever-increasing storage and the low scalability. ![]()
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